Extracted human molars were prepared with different sized occlusal cavities and restored with a high-copper amalgam. Loads were applied along the long axis of the teeth, and forces required to fracture the teeth were recorded. More force was required to break samples with the larger restorations than was required to break samples with the smaller restorations.
Snyder, D.E. : The Cracked Tooth Syndrome and Fractured Posterior Cusp, Oral Surg41:698-704, 1976.
4.
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Sturdevant, C.M.; Barton, R.E.; Brauer, J.C.; and Harrison, M.L.: The Art and Science of Operative Dentistry, New York: McGraw-Hill Co., 1968, p. 220.
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Gilmore, H.W.; Lund, M.R.; Bales, D.J.; and Vernetti, J.: Operative Dentistry, St. Louis: C. V. Mosby Co., 1977, p. 125.
8.
Mahler, D.B.; Terkla, L.G.; and John-Son, L.N.: Evaluation of Techniques for Analyzing Cavity Design for Amalgam Restoration , J Dent Res40:497-503, 1961.
9.
Mahler, D.B. : An Analysis of Stresses in Dental Amalgam Restoration , J Dent Res37:516-526,1958.
10.
Yates, J.L. ; Hembree, J.H.; and Mc-Knight , J.P.: A Comparison of the Effect of Cavity Design on the Fracture Strength of Three Dental Alloy Systems , J Dent Child43: 187-191,1976.
11.
Talim, S.T. and Gohil, K.S.: Management of Coronal Fractures of Permanent Teeth, J Prothet Dent31(2):172-178, 1974.
